Product Details:
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Product Name: | Ammonia Cracking | Material: | Steel |
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Color: | Bright Or Customized | Hydrogen Output: | ≤350Nm3/hr |
Dew Point: | -10℃ | Pressure: | 0.05Mpa |
Atmospheric Dew Point: | ≤-60℃ | ||
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The Ammonia Cracking With Mature Technology To Improve Energy Conversion Efficiency
Product name | Ammonia Cracking |
Hydrogen delivery | ≤350Nm3/hr |
Dew point | -10℃ |
Pressure | 0.05 Mpa |
Residual ammonia | 1000ppm |
Working Principle Description:
Ammonia decomposition for hydrogen production is the process of catalytic decomposition of ammonia gas (NH3) under appropriate conditions to produce hydrogen gas (H₂) and nitrogen gas (N₂). The following is a brief description of the working principle of ammonia decomposition for hydrogen production:
1. Reaction principle:
Ammonia undergoes decomposition reaction under high temperature (usually 500-800°C) and appropriate pressure through the action of catalysts (such as nickel, iron, etc.).
The reaction equation is: 2NH3 → 3H2+N2
2. Working process:
Reactor: Ammonia gas comes into contact with a catalyst in the reactor, which reduces the energy required for the reaction.
• Decomposition: At high temperatures, ammonia decomposes into hydrogen and nitrogen. Hydrogen is the target product, while nitrogen is a byproduct.
• Thermal management: As the reaction is endothermic, an appropriate amount of heat must be provided to maintain the reaction temperature.
3. Catalyst function:
• Activation reaction: The catalyst makes the ammonia decomposition reaction more likely to occur, reducing the energy requirements for the reaction.
• Catalyst selection: Different catalysts have an impact on reaction rate and selectivity, and choosing the appropriate catalyst is crucial.
4. Product processing:
• Hydrogen collection: The generated hydrogen needs to be collected and purified through appropriate processing equipment.
• Nitrogen treatment: The by-product nitrogen can be utilized or discharged as a product.
5. Application areas:
Hydrogen industry: The high-purity hydrogen produced can be used in fields such as hydrogen fuel cells.
Industrial applications: Hydrogen has a wide range of uses in fields such as chemical engineering and metal processing.
The ammonia decomposition hydrogen production process can efficiently produce hydrogen gas, providing important support for the hydrogen energy industry and clean energy applications.
Product Advantages:
● Energy conversion efficiency: Ammonia decomposition hydrogen production technology can improve energy conversion efficiency to a certain extent, especially when combined with renewable energy, which can achieve the production and utilization of clean energy.
●Technological maturity: The ammonia decomposition hydrogen production technology has a certain development history and research foundation, and some commercial applications already exist. The technological maturity is relatively high.
●Process control: The ammonia decomposition hydrogen production process requires precise control and monitoring to ensure reaction stability and product quality.
●Mature technology: The ammonia decomposition hydrogen production technology has a considerable research history and practical application experience. Its process and equipment are relatively mature, which helps to reduce investment risks and improve production stability.
Technical parameters:
● Hydrogen delivery: ≤350Nm3/hr;
● Dew point: -10℃
● Pressure: 0.05 Mpa
● Residual ammonia: 1000ppm
Product picture:
Contact Person: Jack Shi
Tel: +8615962151869
Fax: 86-512-66067218